English

Zero-net-magnetization hybrid magnet

Materials Science 2026-05-20 v1

Abstract

Zero-net-magnetization magnets possess ultradense and ultrafast application potential, benefiting from their intrinsic zero stray field and terahertz dynamics characteristics. Herein, we propose the concept of zero-net-magnetization hybrid magnet, in which magnetic atoms with opposite spin polarization are partially coupled via spatial inversion (PP) symmetry, partially via rotation/mirror (C/MC/M) symmetry or partially without any symmetry correlation. From a local perspective and neglecting the interactions between local regions, hybrid magnet can be regarded as being composed of PTPT-antiferromagnet (possessing the combined symmetry (PTPT) of PP and time-reversal (TT)), altermagnet, or fully compensated ferrimagnet. To realize hybrid magnet, we propose that such system can be constructed by forming heterojunction with three types of zero-net-magnetization magnetic monolayers. We mainly investigate the heterojunction composed of two kinds of zero-net-magnetization magnets, among which one type corresponds to fully compensated ferrimagnet. When heterojunction hybrid magnet exhibits a type-II band alignment, only one of electron doping and hole doping can induce a net magnetic moment, while the other hardly generates any net magnetization. Taking the heterojunction constructed by PTPT-antiferromagnet and fully compensated ferrimagnet as an example, we verify our proposal by means of the tight-binding (TB) model. Finally, taking the Cr2C2S6\mathrm{Cr_2C_2S_6}/CrMoC2S6\mathrm{CrMoC_2S_6} heterojunction as an example, we perform first-principles calculations combined with electric field modulation to validate our TB model and theoretical proposal.

Keywords

Cite

@article{arxiv.2605.19445,
  title  = {Zero-net-magnetization hybrid magnet},
  author = {San-Dong Guo and Shi-Hao Zhang},
  journal= {arXiv preprint arXiv:2605.19445},
  year   = {2026}
}

Comments

7 pages, 5 figures